chapter 3 – pp 101 - 109 unit iii: lively molecules movement of molecules
TRANSCRIPT
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Chapter 3 – pp 101 - 109
Unit III: Lively MoleculesMovement of Molecules
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Interstitial fluid
Ions
GlucoseBlood proteinAmino acid
Capillaryhydrostatic
pressure(CHP)
Filtration
• Particles are driven through a selectively permeable membrane by water
• Moves material between cells not thru
• Examples: coffee filter, blood capillaries
Endothelialcell 1
Endothelialcell 2
Water molecule
Hydrogen bond
Small solutes
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Simple Diffusion
• Passive transport
• Random motion of solutes
• Rates depend on:
– Temperature
– Size of the molecule
– Distance
– Concentration gradient
• how a cell acquires nutrients and gets rid of wastes
Diffusion and Osmosis
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Diffusion
• Down gradient
• Eventually becoming uniform
• Brownian Motion – random motions of microscopic particles caused by collisions with moving molecules
• Example: a drop of dye in water
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Diffusion and Osmosis
Osmosis
• Special type of diffusion:
– the diffusion of water molecules across a semi-permeable membrane
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Diffusion and Osmosis
Osmosis
• Osmotic pressure = Hydrostatic pressure to halt osmosis
• Osmotic pressure is proportional to the solute concentration
•Example:
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Diffusion and Osmosis
Osmosis
• Example: Red blood cells placed in a drop of distilled water will swell and burst
• Explanation: The distilled water is
hypotonic to the RBC’s cytoplasm
(a) Hypotonic
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Diffusion and Osmosis
Osmosis
• Example: Red blood cells placed in a drop of highly concentrated salt solution will shrivel up
• Explanation: The salt solution is
hypertonic to the RBC’s cytoplasm
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Diffusion and Osmosis
Osmosis
• Example: Red blood cells placed in a drop of blood plasma – no change.
•Explanation: The blood plasma is
isotonic to the RBC’s cytoplasm
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Diffusion and Osmosis
Osmosis
• Osmolarity – total solute concentration in an aqueous solution
• Tonicity – description of how the solution effects a cell
•Example situation: giving large volume of fluid during blood loss or dehydration.
– Osmolarity starts the same but ECF is ______________
– Ions (thus water) moves in to ICF to equilibrate ↑ osmolarity
– Administer: ________________
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Carrier – Mediated Transport
• Cell membrane is essential
• Employ transport proteins/carriers
• Specificity
• Saturation
Other Membrane Transports
Concentration of solute
Rat
e o
f so
lute
tra
nsp
ort
(mo
lecu
les/
sec
pas
sin
gth
rou
gh
pla
sma
mem
bra
ne)
Transport maximum (Tm)
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Facilitated Diffusion
• Down gradient• No ATP used
Carrier – Mediated Transport
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Carrier – Mediated Transport
Active Transport
• Up gradient
• ATP energy required to change carrier
• Examples:
– sodium-potassium pump
– bring amino acids into cell
– pump Ca2+ out of cell
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Carrier – Mediated Transport
Active Transport
Sodium-Potassium Pump
• Needed because Na+ and K+ constantly leak through membrane
• One ATP utilized to exchange three Na+ pushed out for two K+ brought in to cell
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Carrier – Mediated Transport
Active Transport
Sodium-Potassium Pump
CYTOPLASM
Glucosemolecule
Sodiumion
Na+–K+
pump
+
+
• Regulation of cell volume
• Heat production
• Maintenance of a membrane potential
• Secondary active transport (No ATP used)
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Vesicular Transport
• Transport large particles or fluid droplets through membrane in vesicles
• Endocytosis –
– phagocytosis –
– pinocytosis –
– receptor mediated endocytosis –
• Exocytosis –
Bacterium
Pseudopodium
Phagocytosis
Lysosome
Golgiapparatus
Exocytosis